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    • 5. 发明申请
    • CAM FOR PRESS METAL MOLD
    • CAM用于压力金属模具
    • WO1997004894A1
    • 1997-02-13
    • PCT/JP1996001958
    • 1996-07-12
    • OILES CORPORATIONSASAHARA, TadashiMORIOKA, Hideyuki
    • OILES CORPORATION
    • B21D37/08
    • B21D28/32B21D37/08Y10T74/18992
    • A cam (1) for a press metal mold comprises a cam slide (3) having a cam surface (2) and movable in an X direction, a cam driver (4) adapted to abut against the cam surface (2) of the cam slide (3) to move the cam slide (3) in the X direction, and returning means (5) for returning the cam slide (3) to an original position. The returning means (5) comprises a coil spring (42) disposed in a bottomed hole (11) formed in the cam slide (3) with one end (41) thereof abutting against a body (12) of the cam slide (3), and holding means (43) holding the coil spring (42). The holding means (43) comprises a rod (45) slidably extending through a through hole (44) and surrounded by the coil spring (42) to extend through and beyond the bottomed hole (11), and a spring support (48) provided to thread on one end (47) of the rod (45) on a side of the bottomed hole (11) so as to bear the other end (46) of the coil spring (42).
    • 一种用于冲压金属模具的凸轮(1)包括具有凸轮表面(2)并且可沿X方向移动的凸轮滑块(3),适于抵靠凸轮的凸轮表面(2)的凸轮驱动器(4) 滑动(3)使X轴方向上的凸轮滑块(3)移动,以及用于使凸轮滑块(3)返回到原来位置的返回装置(5)。 返回装置(5)包括设置在形成在凸轮滑块(3)中的有底孔(11)中的螺旋弹簧(42),其一端(41)抵靠凸轮滑块(3)的主体(12) 和保持螺旋弹簧(42)的固定装置(43)。 保持装置(43)包括可滑动地延伸穿过通孔(44)并被螺旋弹簧(42)包围以延伸穿过和穿过有底孔(11)的杆(45),以及弹簧支撑件(48) 在所述有孔(11)的一侧上的所述杆(45)的一端(47)上螺合,以便承受所述螺旋弹簧(42)的另一端(46)。
    • 6. 发明申请
    • BEARING DEVICE OF PISTON ROD
    • 活塞杆轴承装置
    • WO1997038241A1
    • 1997-10-16
    • PCT/JP1997001219
    • 1997-04-09
    • KAYABA KOGYO KABUSHIKI KAISHAOILES CORPORATIONASA, TakashiHASEGAWA, MitsuhiroMORINO, KiyomiKOHAMA, MasayukiSHINYASHIKI, Hideki
    • KAYABA KOGYO KABUSHIKI KAISHAOILES CORPORATION
    • F16F09/36
    • F16F9/364F16C29/02F16C29/084
    • A bearing device capable of slidably supporting a piston rod without using a guide bush to eliminate fall-off of the guide bush and an additional work such as caulking, capable of reducing the production cost, preventing leak of an oil liquid, preferably having excellent durability and causing the piston rod to smoothly slide for a long time without generating offensive sound. In a bearing device of a single cylinder hydraulic buffer equipped with seal members (55, 56, 57 and 64) and a rod guide (6) or a gas spring or a multi-cylinder type hydraulic buffer, the rod guide (6) includes a cylindrical fitting portion (13) that fits to an end portion of a cylinder (2), a cylindrical bearing portion (16) for guiding the piston rod (5) and a bearing layer (15) integrally fixed to the inner peripheral surface of the cylindrical bearing portion and coming into sliding contact with the outer periphery of the piston rod. While the bearing layer (15) is integrally fixed in advance to only a portion that serves as a portion of the cylindrical bearing portion (16) on the surface of a base material made of a thin steel sheet, the bearing device is integrally shaped into a cylindrical shape by pressing and deep drawing.
    • 一种能够滑动地支撑活塞杆而不使用导向衬套的轴承装置,以消除导套的脱落,以及能够降低生产成本,防止油液泄漏的附加工作(例如填缝),优选具有优异的耐久性 并使活塞杆平稳地滑动很长时间,而不产生令人反感的声音。 在配备有密封构件(55,56,57和64)和杆导向件(6)或气弹簧或多气缸型液压缓冲器的单缸液压缓冲器的轴承装置中,杆导向件(6)包括 与圆柱体(2)的端部嵌合的圆柱形嵌合部分(13),用于引导活塞杆(5)的圆柱形轴承部分(16)和一体地固定在活塞杆(5)的内周表面上的轴承层 圆柱形轴承部分并与活塞杆的外周滑动接触。 在轴承层(15)预先一体地固定在仅作为圆筒状轴承部(16)的由薄钢板构成的基材的表面的一部分的部分上时,轴承装置整体成形为 通过压制和深冲制形成圆柱形。
    • 8. 发明公开
    • ROTARY DAMPER
    • US20240003398A1
    • 2024-01-04
    • US18252851
    • 2021-09-06
    • OILES CORPORATION
    • Hiroshi WATANABEKenichi OKUMURAWataru NISHIOKARyohei KANEKO
    • F16F9/14A47C1/024
    • F16F9/145A47C1/024
    • The present invention enables a simple structure to provide an easy adjustment of damping torque to be caused by applied rotation.
      The rotary damper (1) is intend to limit movement of viscous fluid filled in a circular cylindrical chamber (111), thereby generating a damping torque in response to an applied rotational force. The lid (15) is the screw-on type capable of being screwed into the casing (11), and thus adjusting a clearance gap G1 between the lid (15) and each partition (115) by way of changing the screwing amount of the lid (15) into the casing (11) allows amount of viscous fluid moving through the clearance gap G1 to be adjusted, thereby resulting in adjustment of a damping torque to be caused by rotation. In addition, each axial force generation member (17) includes a plastically or elastically deformable element and is located between the lid (15) and the corresponding partition (115) to apply a reaction force to the lid (15). This causes screwing the lid (15) into the casing (11) to generate an axial force, thereby preventing external-leakage of the viscous fluid via a threaded interface between the lid (15) and the casing (11), and allows the leeway for the adjustment of the clearance gap G1 to increase.